A vehicle heat exchange apparatus, including: a heat-exchanger provided rearward of a front-bumper formed with an air-intake-port, and having an air-inlet-member on a front-face of the heat-exchanger; and a passage-forming-member provided between the front-bumper and the heat-exchanger, and forming a passage for passing cooling-air from the air-intake-port of the front-bumper to the air-inlet-member of the heat-exchanger, wherein the heat-exchanger is provided inclined so that an upper-end-portion is positioned rearward of a lower-end-portion, the passage-forming-member has: a duct-member having: a top-member; a bottom-member facing the top-member; and a pair of side-members interconnecting the top-member and the bottom-member, and forming a part of the passage with a space enclosed by the top-member, the bottom-member and the pair of side-members; and a closing-member provided to close a gap between the top-member of the duct-member and the upper-end-portion of the heat-exchanger.
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9. A vehicle heat exchange apparatus, comprising:
a heat exchanger provided rearward of a front bumper formed with an air intake port, and having an air inlet member on a front face of the heat exchanger; and
a passage forming member provided between the front bumper and the heat exchanger, and forming a passage for passing cooling air from the air intake port of the front bumper to the air inlet member of the heat exchanger, wherein
the heat exchanger is provided inclined so that an upper end portion is positioned rearward of a lower end portion,
the passage forming member has:
a duct member having: a top member; a bottom member facing the top member; and a pair of side members interconnecting the top member and the bottom member, and forming a part of the passage with a space enclosed by the top member, the bottom member and the pair of side members; and
a closing member installed between the top member of the duct member and the upper end portion of the heat exchanger, wherein
a vehicle body frame projecting below the top member of the duct member is provided between the top member of the duct member and the closing member.
1. A vehicle heat exchange apparatus, comprising:
a heat exchanger provided rearward of a front bumper formed with an air intake port, and having an air inlet member on a front face of the heat exchanger; and
a passage forming member provided between the front bumper and the heat exchanger, and forming a passage for passing cooling air from the air intake port of the front bumper to the air inlet member of the heat exchanger, wherein
the heat exchanger is provided inclined so that an upper end portion is positioned rearward of a lower end portion,
the passage forming member has:
a duct member having: a top member; a bottom member facing the top member; and a pair of side members interconnecting the top member and the bottom member, and forming a part of the passage with a space enclosed by the top member, the bottom member and the pair of side members;
a flange member projected upward from the top member, and fastened to a vehicle body frame; and
a closing member installed between the vehicle body frame and the upper end portion of the heat exchanger, wherein
the top member and the bottom member of the duct member are extended horizontally, wherein
the closing member is extended horizontally above the top member of the duct member.
2. The vehicle heat exchange apparatus according to
the vehicle body frame projects below the top member of the duct member between the flange member and the closing member.
3. The vehicle heat exchange apparatus according to
the duct member is fastened to the vehicle body frame through the flange member.
4. The vehicle heat exchange apparatus according to
an edge member of the vehicle body frame is projected in the space inside the duct member, and a reinforcing rib is provided near the edge member.
5. The vehicle heat exchange apparatus according to
a bracket fastened to the bottom member of the duct member through a cushioning member, wherein
an end member of the bracket is extended upward on a side of the duct member, and is fastened to the vehicle body frame.
6. The vehicle heat exchange apparatus according to
a pipe for supplying heat medium to the heat exchanger, wherein
the pipe is extended laterally of the heat exchanger below the closing member.
7. The vehicle heat exchange apparatus according to
the air intake port is provided below a center portion in a height direction of the air inlet member.
8. The vehicle heat exchange apparatus according to
the heat exchanger is an ATF cooler for cooling hydraulic oil or lubricating oil of an automatic transmission.
10. The vehicle heat exchange apparatus according to
11. The vehicle heat exchange apparatus according to
12. The vehicle heat exchange apparatus according to
an edge member of the vehicle body frame is projected in the space inside the duct member, and a reinforcing rib is provided near the edge member.
13. The vehicle heat exchange apparatus according to
a bracket fastened attached to the bottom member of the duct member through a cushioning member, wherein
an end member of the bracket is extended upward on a side of the duct member, and is fastened to the vehicle body frame.
14. The vehicle heat exchange apparatus according to
a pipe for supplying heat medium to the heat exchanger, wherein
the pipe is extended laterally of the heat exchanger below the closing member.
15. The vehicle heat exchange apparatus according to
the air intake port is provided below a center portion in a height direction of the air inlet member.
16. The vehicle heat exchange apparatus according to
the heat exchanger is an ATF cooler for cooling hydraulic oil or lubricating oil of an automatic transmission.
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This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2017-105545 filed on May 29, 2017, the content of which is incorporated herein by reference.
This invention relates to a vehicle heat exchange apparatus which has an air-cooled heat exchanger mounted on a vehicle.
Apparatuses of this type are known that comprise an oil cooler serving as a heat exchanger installed forward of a front wheel housing and have a cooling airflow intake structure adapted to guide cooling airflow introduced through a front bumper air inlet to the oil cooler. For example, a structure described in Japanese Unexamined Patent Publication No. 2000-177406 (JP2000-177406A) has an air intake passage forming member installed between the front bumper and the oil cooler, and an oil cooler air guide for guiding cooling airflow to the oil cooler is installed in the air intake passage forming member.
But as heat load of various equipment mounted in vehicles has increased in recent years, a need has arisen to increase heat exchanger heat exchange quantity (heat exchange capacity), and meeting this need would ordinarily be expected to lead to larger heat exchanger size. However, increasing heat exchanger size is not practical because, as stated in JP2000-177406A, for example, a heat exchanger generally has to be installed in a space of limited size in vehicle height direction.
An aspect of the present invention is a vehicle heat exchange apparatus, including: a heat exchanger provided rearward of a front bumper formed with an air intake port, and having an air inlet member on a front face of the heat exchanger; and a passage forming member provided between the front bumper and the heat exchanger, and forming a passage for passing cooling air from the air intake port of the front bumper to the air inlet member of the heat exchanger, wherein the heat exchanger is provided inclined so that an upper end portion is positioned rearward of a lower end portion, the passage forming member has: a duct member having: a top member; a bottom member facing the top member; and a pair of side members interconnecting the top member and the bottom member, and forming a part of the passage with a space enclosed by the top member, the bottom member and the pair of side members; and a closing member provided to close a gap between the top member of the duct member and the upper end portion of the heat exchanger.
The objects, features, and advantages of the present invention will become clearer from the following description of embodiments in relation to the attached drawings, in which:
An embodiment of the present is explained with reference to
As shown in
As shown in
The ATF cooler 10 is connected to an automatic transmission (not shown). In the present embodiment, the ATF cooler 10 is installed behind the left side air intake ports 4 taking into consideration ease of routing piping for interconnecting the ATF cooler 10 and the automatic transmission. The ATF cooler 10 can alternatively be installed some other location (e.g., behind the right end portion of the front bumper 1) depending on where the automatic transmission is installed.
As shown in
A passage forming member 20 formed with a passage 21 for guiding to the ATF cooler 10 cooling airflow introduced from ahead of the vehicle through the air intake ports 4 into the housing space SP is provided between the front bumper 1 and the ATF cooler 10. The passage forming member 20 comprises a duct member 30 installed forward of the ATF cooler 10 and an upper plate 40 installed between upper end of the duct member 30 and upper end of the ATF cooler 10. Thus, the vehicle heat exchange apparatus 100 of the present embodiment comprises the ATF cooler 10 and the passage forming member 20 (duct member 30 and upper plate 40).
As shown in
As shown in
Stays 18 are welded or otherwise fastened to the upper end of the cooler core 15 of the ATF cooler 10 as shown in
As shown in
As shown in
As shown in
The duct member 30 is fastened to the vehicle body frame.
The vehicle body frame member 110 extends vertically and laterally, and part of the vehicle body frame member 110 is interposed between the right side member 34 of the duct member 30 and the ATF cooler 10 and between the top member 31 of the duct member 30 and the upper plate 40. Specifically, an edge region 111 of the vehicle body frame member 110 is interposed from a vertical middle region of the right side member 34 of the duct member 30 to a right end region of the top member 31. A reinforcing rib 112 is provided near the edge region 111 of the vehicle body frame member 110. An upward projecting flange 38 is provided on the top member 31 of the duct member 30, and the flange 38 is fastened to the vehicle body frame member 110 by a bolt. As shown in
As shown in
The vehicle heat exchange apparatus 100 according to the present embodiment operates follows. As shown in
Therefore, as indicated by arrow A in
The present embodiment can achieve advantages and effects such as the following:
(1) The vehicle heat exchange apparatus 100 includes the ATF cooler 10 that is installed rearward of the front bumper 1 formed with the air intake ports 4 and has the substantially rectangular air inlet 11 on its front face, and the passage forming member 20 that is installed between the front bumper 1 and the ATF cooler 10 and forms the passage 21 for passing cooling airflow from the air intake ports 4 of the front bumper 1 to the air inlet 11 of the ATF cooler 10 (
Owing to the oblique installation of the ATF cooler 10 as describe above, an ATF cooler whose enlarged cooler core 15 includes a large number of tubes 16 (number of tube stages), i.e., a large-sized ATF cooler 10, can be accommodated in the housing space SP of limited vertical and lateral size behind the front bumper 1. Moreover, since the passage 21 is formed by the duct member 30 and the upper plate 40 to extend from the air intake ports 4 to the ATF cooler 10, cooling airflow quantity passing through the upper side portion of the ATF cooler 10 can be increased while inhibiting outflow of cooling air from the passage 21 that passes upward between the duct member 30 and the ATF cooler 10. As a result, heat exchange quantity of the ATF cooler 10 can be increased, so as, for example, to easily deal with increase in heat load of motors and the like cooled by ATF.
(2) The upper plate 40 is provided to extend horizontally at a level higher than the top member 31 of the duct member 30 (
(3) The vehicle body frame member 110 is installed between the top member 31 of the duct member 30 and the upper plate 40 to project downward beyond the top member 31 of the duct member 30 (
(4) The duct member 30 has the flange 38 projecting from the top member 31 and is fastened to the vehicle body frame member 110 through the flange 38 (
(5) The edge region 111 of the vehicle body frame member 110 is formed so as to protrude into the inner space of the duct member 30 and the reinforcing rib 112 is provided in the vicinity of the edge region 111 (
Although the aforesaid embodiment represents an example in which the vehicle heat exchange apparatus 100 is utilizes the ATF cooler 10, the present invention can also utilize an intercooler or other type of air-cooled heat exchanger. Moreover, the heat medium used in the vehicle heat exchanger is not limited ATF but can be of another type. The vehicle heat exchange apparatus need not be installed at the lower left side portion of the vehicle but can instead be installed at the right front, lateral middle, or some other part of the vehicle. Although the air intake ports 4a and 4b are provided at two vertically spaced locations of the front bumper 1 in the aforesaid embodiment, the number of air intake ports is not limited to two and, for example, provision of an air intake port at only one location also possible.
In the aforesaid embodiment, the upper plate 40 is provided between the duct member 30 and the ATF cooler 10, but the blocking member is not limited to this configuration and can be of any arrangement capable of blocking the gap the inclination of the ATF cooler 10 causes between the top member 31 of the duct member 30 and the upper end of the ATF cooler 10. In the aforesaid embodiment, the upper plate 40 is disposed horizontally above the top member 31 of the duct member 30, but instead of being oriented horizontally, the upper plate 40 can, for example, be arranged obliquely vertical, and the height relationship between the duct member and the top member and the mode of blocking member installation are not limited to those described in the foregoing. In the aforesaid embodiment, the vehicle body frame member 110 is provided between the top member 31 of the duct member 30 and the upper plate 40 so as to protrude downward of the top member 31, but the vehicle body frame member is not limited to the aforesaid configuration and can, for example, be provided so as not to protrude from the top member 31.
The above embodiment can be combined as desired with one or more of the above modifications. The modifications can also be combined with one another.
According to the present invention, it is possible to easily install a large-sized heat exchanger in a space of limited vertical size and to guide cooling airflow to whole front face of the heat exchanger, enabling to increase heat exchange quantity of the heat exchanger.
Above, while the present invention has been described with reference to the preferred embodiments thereof, it will be understood, by those skilled in the art, that various changes and modifications may be made thereto without departing from the scope of the appended claims.
Igarashi, Tatsuya, Takaishi, Toshihiko, Watase, Masami, Yoneyama, Tatsuya
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
May 07 2018 | TAKAISHI, TOSHIHIKO | HONDA MOTOR CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 045907 | /0640 | |
May 07 2018 | WATASE, MASAMI | HONDA MOTOR CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 045907 | /0640 | |
May 07 2018 | YONEYAMA, TATSUYA | HONDA MOTOR CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 045907 | /0640 | |
May 07 2018 | IGARASHI, TATSUYA | HONDA MOTOR CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 045907 | /0640 | |
May 25 2018 | Honda Motor Co., Ltd. | (assignment on the face of the patent) | / |
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